Oil Sight Glass

ABSTRACT

An oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which the oil sight glass is connected. The oil sight glass comprises a sight body, a first end, a second end, a first fluid opening, a second fluid opening, a chamber, and a hex head, and a sidewall. The chamber is in fluid communication between the first fluid opening in the first end, and the second fluid opening in the second end.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims benefit to U.S. application Ser. Nos. 29/721,673 and 62/945,219.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT (IF APPLICABLE)

Not applicable.

REFERENCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTING COMPACT DISC APPENDIX (IF APPLICABLE)

Not applicable.

BACKGROUND OF THE INVENTION

Prior art known to the Applicant includes US20180073907, WO 2013048941, and US 20160305810, D792259, D790999, and D834976.

BRIEF SUMMARY OF THE INVENTION

An oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass is connected. Said oil sight glass comprises a sight body, a first end, a second end, a first fluid opening, a second fluid opening, a chamber, and a hex head, and a sidewall. Said chamber is in fluid communication between said first fluid opening in said first end, and said second fluid opening in said second end.

Said oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass is connected. Said oil sight glass comprises said sight body, said first end, said second end, said first fluid opening, said second fluid opening, said chamber, and said hex head, and said sidewall. Said chamber comprises a camber draining neck. Said camber draining neck comprises a concave indention in a first end of said chamber being aligned with a central axis. Said camber draining neck comprises an angle relative to a perpendicular plane from said central axis. Said chamber is in fluid communication between said first fluid opening in said first end, and said second fluid opening in said second end.

Said oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass is connected. Said oil sight glass comprises said sight body, said first end, said second end, said first fluid opening, said second fluid opening, said chamber, and said hex head, and said sidewall. Said chamber is in fluid communication between said first fluid opening in said first end, and said second fluid opening in said second end. Said first fluid opening is aligned with said central axis, and further, centered on said hex head. Said hex head is an extension out of said first end. Said hex head is configured to allow users to tighten and/or remove said oil sight glass without damaging corresponding equipment. Said hex head is configured to receive and selectively connect to tools in order to grab and twist said oil sight glass.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

FIG. 1 illustrates a perspective overview of an oil sight glass 100.

FIG. 2 illustrates an elevated first side view of said oil sight glass 100 with a section cut A line 200.

FIG. 3 illustrates an elevated cross-section front view of said oil sight glass 100.

FIG. 4 illustrates an elevated top view of said oil sight glass 100.

DETAILED DESCRIPTION OF THE INVENTION

The following description is presented to enable any person skilled in the art to make and use the invention as claimed and is provided in the context of the particular examples discussed below, variations of which will be readily apparent to those skilled in the art. In the interest of clarity, not all features of an actual implementation are described in this specification. It will be appreciated that in the development of any such actual implementation (as in any development project), design decisions must be made to achieve the designers' specific goals (e.g., compliance with system- and business-related constraints), and that these goals will vary from one implementation to another. It will also be appreciated that such development effort might be complex and time-consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the field of the appropriate art having the benefit of this disclosure. Accordingly, the claims appended hereto are not intended to be limited by the disclosed embodiments, but are to be accorded their widest scope consistent with the principles and features disclosed herein.

FIG. 1 illustrates a perspective overview of an oil sight glass 100.

In one embodiment, said oil sight glass 100 can comprise a sight body 102, a first end 104, a second end 106, a first fluid opening 108, a second fluid opening 110, a chamber 112, and a hex head 114, and a sidewall 116. In one embodiment, said chamber 112 can comprise a camber draining neck 118, as discussed herein.

In one embodiment, said oil sight glass 100 can function to provide visual confirmation of water and/or debris in a fluid such as oil. Said fluid may be stored in a reservoir (not illustrated), and said oil sight glass 100 can be connected to the reservoir with either said first end 104 and said second end 106. Due to wear, water, particulates, heat, etc., the fluid may become contaminated; in turn, this contaminant can migrate to the reservoir and may settle at the bottom as sediment.

This disclosure presents improvements to the prior art as to the inclusion of said camber draining neck 118 for drainage, and said hex head 114 for assistance in installation and removal of said oil sight glass 100.

In one embodiment, said sight body 102 can comprise a substantially cylindrical object between said first end 104 and said second end 106, aligned along a central axis 120. Said chamber 112 can be in fluid communication between said first fluid opening 108 in said first end 104, and said second fluid opening 110 in said second end 106.

Said first fluid opening 108 can be aligned with said central axis 120, and further, centered on said hex head 114. Said first fluid opening 108, said second fluid opening 110 and said chamber 112 can all be aligned with said central axis 120.

Said hex head 114 can be an extension out of said first end 104. Said oil sight glass 100 can be machined or created from an injected polymer and/or acrylic. Said sight body 102 and said hex head 114 can, consequently, be formed of the same material at the time of manufacturing.

Said hex head 114 can allow users to tighten and/or remove said oil sight glass 100 without damaging corresponding equipment. As is known in the art, oil sight glasses can become adhered to other equipment on account of temperature and chemical changes, wherein, removing a sight glass may require destroying or damaging the sight glass. By including said hex head 114, common tools can grab and twist said oil sight glass 100.

FIG. 2 illustrates an elevated first side view of said oil sight glass 100 with a section cut A line 200.

FIG. 3 illustrates an elevated cross-section front view of said oil sight glass 100.

In one embodiment, said first fluid opening 108 can comprise a first end chamber 300 which leads into said chamber 112, which in turn leads into a second end chamber 302 at said second fluid opening 110.

In one embodiment, said camber draining neck 118 can comprise a concave indention in a first end 304 of said chamber 112 being aligned with said central axis 120. In one embodiment, said camber draining neck 118 can comprise an angle 306 relative to a perpendicular plane from said central axis 120. In one embodiment, said angle 306 can comprise 15-30 degrees, and in a preferred embodiment, 20 degrees. Said angle 306 can aid in draining a fluid out of said chamber 112 more completely that prior embodiments which were flat.

Said first end chamber 300 can comprise a first diameter 308, said second end chamber 302 can comprise a second diameter 310, said chamber 112 can comprise a chamber diameter 312, and said hex head 114 can comprise a hex gap height 314. Said oil sight glass 100 can comprise a glass length 316, and said hex head 114 can comprise a head height 318. In one embodiment, said hex gap height 314 can comprise 1.25 inches, said chamber diameter 312 can comprise 1.2 inches, said glass length 316 can comprise 2.5 inches, and said head height 318 can comprise 0.25 inches.

FIG. 4 illustrates an elevated top view of said oil sight glass 100.

These parts are presented in this specification:

-   said oil sight glass 100, -   said sight body 102, -   said first end 104, -   said second end 106, -   said first fluid opening 108, -   said second fluid opening 110, -   said chamber 112, -   said hex head 114, -   said sidewall 116, -   said camber draining neck 118, -   said central axis 120, -   said section cut A line 200, -   said first end chamber 300, -   said second end chamber 302, -   said first end 304, -   said angle 306, -   said first diameter 308, -   said second diameter 310, -   said chamber diameter 312, -   said hex gap height 314, -   said glass length 316, and -   said head height 318.

These sentences are presented with reference to the original claims to ensure the specification contains the contents of the claims:

Said oil sight glass 100 for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass 100 can be connected. Said oil sight glass 100 comprises said sight body 102, said first end 104, said second end 106, said first fluid opening 108, said second fluid opening 110, said chamber 112, and said hex head 114, and said sidewall 116. Said chamber 112 can be in fluid communication between said first fluid opening 108 in said first end 104, and said second fluid opening 110 in said second end 106.

Said chamber 112 comprises said camber draining neck 118.

and said oil sight glass 100 can be connected to the reservoir with either said first end 104 and said second end 106.

Said sight body 102 comprises a substantially cylindrical object between said first end 104 and said second end 106. Said sight body 102 can be aligned along said central axis 120.

Said first fluid opening 108 can be aligned with said central axis 120, and further, centered on said hex head 114. Said first fluid opening 108, said second fluid opening 110 and said chamber 112 can be configured to all be aligned with said central axis 120.

Said hex head 114 can be an extension out of said first end 104.

Said oil sight glass 100 can be machined or created from a material selected among an injected polymer and acrylic.

Said sight body 102 and said hex head 114 can be formed of the same material as said oil sight glass 100 at the time of manufacturing.

Said hex head 114 can be configured to allow users to tighten and/or remove said oil sight glass 100 without damaging corresponding equipment. Said hex head 114 can be configured to receive and selectively connect to tools in order to grab and twist said oil sight glass 100.

Said first fluid opening 108 comprises said first end chamber 300 which leads into said chamber 112, which in turn leads into said second end chamber 302 at said second fluid opening 110.

Said camber draining neck 118 comprises a concave indention in said first end 304 of said chamber 112 being aligned with said central axis 120. Said camber draining neck 118 comprises said angle 306 relative to a perpendicular plane from said central axis 120.

Said angle 306 comprises 15-30 degrees.

Said angle 306 comprises 20 degrees.

Said oil sight glass 100 for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass 100 can be connected. Said oil sight glass 100 comprises said sight body 102, said first end 104, said second end 106, said first fluid opening 108, said second fluid opening 110, said chamber 112, and said hex head 114, and said sidewall 116. Said chamber 112 comprises said camber draining neck 118. Said camber draining neck 118 comprises a concave indention in said first end 304 of said chamber 112 being aligned with said central axis 120. Said camber draining neck 118 comprises said angle 306 relative to a perpendicular plane from said central axis 120. Said chamber 112 can be in fluid communication between said first fluid opening 108 in said first end 104, and said second fluid opening 110 in said second end 106.

Said oil sight glass 100 for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass 100 can be connected. Said oil sight glass 100 comprises said sight body 102, said first end 104, said second end 106, said first fluid opening 108, said second fluid opening 110, said chamber 112, and said hex head 114, and said sidewall 116. Said chamber 112 can be in fluid communication between said first fluid opening 108 in said first end 104, and said second fluid opening 110 in said second end 106. Said first fluid opening 108 can be aligned with said central axis 120, and further, centered on said hex head 114. Said hex head 114 can be an extension out of said first end 104. Said hex head 114 can be configured to allow users to tighten and/or remove said oil sight glass 100 without damaging corresponding equipment. Said hex head 114 can be configured to receive and selectively connect to tools in order to grab and twist said oil sight glass 100.

Various changes in the details of the illustrated operational methods are possible without departing from the scope of the following claims. Some embodiments may combine the activities described herein as being separate steps. Similarly, one or more of the described steps may be omitted, depending upon the specific operational environment the method is being implemented in. It is to be understood that the above description is intended to be illustrative, and not restrictive. For example, the above-described embodiments may be used in combination with each other. Many other embodiments will be apparent to those of skill in the art upon reviewing the above description. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. In the appended claims, the terms “including” and “in which” are used as the plain-English equivalents of the respective terms “comprising” and “wherein.” 

1. An oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass is connected; wherein, said oil sight glass comprises a sight body, a first end, a second end, a first fluid opening, a second fluid opening, a chamber, and a hex head, and a sidewall; and said chamber is in fluid communication between said first fluid opening in said first end, and said second fluid opening in said second end.
 2. The oil sight glass of claim 1, wherein: said chamber comprises a camber draining neck.
 3. The oil sight glass of claim 1, wherein: and said oil sight glass is connected to the reservoir with either said first end and said second end.
 4. The oil sight glass of claim 1, wherein: said sight body comprises a substantially cylindrical object between said first end and said second end; and said sight body is aligned along a central axis.
 5. The oil sight glass of claim 1, wherein: said first fluid opening is aligned with said central axis, and further, centered on said hex head; and said first fluid opening, said second fluid opening and said chamber is configured to all be aligned with said central axis.
 6. The oil sight glass of claim 1, wherein: said hex head is an extension out of said first end.
 7. The oil sight glass of claim 1, wherein: said oil sight glass is machined or created from a material selected among an injected polymer and acrylic.
 8. The oil sight glass of claim 1, wherein: said sight body and said hex head is formed of the same material as said oil sight glass at the time of manufacturing.
 9. The oil sight glass of claim 1, wherein: said hex head is configured to allow users to tighten and/or remove said oil sight glass without damaging corresponding equipment; and said hex head is configured to receive and selectively connect to tools in order to grab and twist said oil sight glass.
 10. The oil sight glass of claim 1, wherein: said first fluid opening comprises a first end chamber which leads into said chamber, which in turn leads into a second end chamber at said second fluid opening.
 11. The oil sight glass of claim 1, wherein: said camber draining neck comprises a concave indention in a first end of said chamber being aligned with said central axis; and said camber draining neck comprises an angle relative to a perpendicular plane from said central axis.
 12. The oil sight glass of claim 11, wherein: said angle comprises 15-30 degrees.
 13. The oil sight glass of claim 11, wherein: said angle comprises 20 degrees.
 14. An oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass is connected; wherein, said oil sight glass comprises a sight body, a first end, a second end, a first fluid opening, a second fluid opening, a chamber, and a hex head, and a sidewall; said chamber comprises a camber draining neck; said camber draining neck comprises a concave indention in a first end of said chamber being aligned with a central axis; said camber draining neck comprises an angle relative to a perpendicular plane from said central axis; and said chamber is in fluid communication between said first fluid opening in said first end, and said second fluid opening in said second end.
 15. An oil sight glass for visual inspection of water and debris in a fluid such as oil within a reservoir to which said oil sight glass is connected; wherein, said oil sight glass comprises a sight body, a first end, a second end, a first fluid opening, a second fluid opening, a chamber, and a hex head, and a sidewall; said chamber is in fluid communication between said first fluid opening in said first end, and said second fluid opening in said second end; said first fluid opening is aligned with a central axis, and further, centered on said hex head; said hex head is an extension out of said first end; said hex head is configured to allow users to tighten and/or remove said oil sight glass without damaging corresponding equipment; and said hex head is configured to receive and selectively connect to tools in order to grab and twist said oil sight glass. 